// Copyright 2015-2018 Espressif Systems (Shanghai) PTE LTD // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include #include "esp_tls.h" #include "esp_log.h" #include "esp_transport.h" #include "esp_transport_ssl.h" #include "esp_transport_utils.h" #include "esp_transport_internal.h" #define GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t) \ transport_esp_tls_t *ssl = ssl_get_context_data(t); \ if (!ssl) { return; } static const char *TAG = "TRANSPORT_BASE"; typedef enum { TRANS_SSL_INIT = 0, TRANS_SSL_CONNECTING, } transport_ssl_conn_state_t; /** * mbedtls specific transport data */ typedef struct transport_esp_tls { esp_tls_t *tls; esp_tls_cfg_t cfg; bool ssl_initialized; transport_ssl_conn_state_t conn_state; } transport_esp_tls_t; static inline struct transport_esp_tls * ssl_get_context_data(esp_transport_handle_t t) { if (!t) { return NULL; } if (t->data) { // Prefer internal ssl context (independent from the list) return (transport_esp_tls_t*)t->data; } if (t->base && t->base->transport_esp_tls) { // Next one is the lists inherent context t->data = t->base->transport_esp_tls; // Optimize: if we have base context, use it as internal return t->base->transport_esp_tls; } // If we don't have a valid context, let's to create one transport_esp_tls_t *ssl = esp_transport_esp_tls_create(); ESP_TRANSPORT_MEM_CHECK(TAG, ssl, return NULL) t->data = ssl; return ssl; } static int ssl_close(esp_transport_handle_t t); static int esp_tls_connect_async(esp_transport_handle_t t, const char *host, int port, int timeout_ms, bool is_plain_tcp) { transport_esp_tls_t *ssl = ssl_get_context_data(t); if (ssl->conn_state == TRANS_SSL_INIT) { ssl->cfg.timeout_ms = timeout_ms; ssl->cfg.is_plain_tcp = is_plain_tcp; ssl->cfg.non_block = true; ssl->ssl_initialized = true; ssl->tls = esp_tls_init(); if (!ssl->tls) { return -1; } ssl->conn_state = TRANS_SSL_CONNECTING; } if (ssl->conn_state == TRANS_SSL_CONNECTING) { return esp_tls_conn_new_async(host, strlen(host), port, &ssl->cfg, ssl->tls); } return 0; } static inline int ssl_connect_async(esp_transport_handle_t t, const char *host, int port, int timeout_ms) { return esp_tls_connect_async(t, host, port, timeout_ms, false); } static inline int tcp_connect_async(esp_transport_handle_t t, const char *host, int port, int timeout_ms) { return esp_tls_connect_async(t, host, port, timeout_ms, true); } static int esp_tls_connect(esp_transport_handle_t t, const char *host, int port, int timeout_ms, bool is_plain_tcp) { transport_esp_tls_t *ssl = ssl_get_context_data(t); ssl->cfg.timeout_ms = timeout_ms; ssl->cfg.is_plain_tcp = is_plain_tcp; ssl->ssl_initialized = true; ssl->tls = esp_tls_init(); if (ssl->tls == NULL) { ESP_LOGE(TAG, "Failed to initialize new connection object"); capture_tcp_transport_error(t, ERR_TCP_TRANSPORT_NO_MEM); return -1; } if (esp_tls_conn_new_sync(host, strlen(host), port, &ssl->cfg, ssl->tls) <= 0) { ESP_LOGE(TAG, "Failed to open a new connection"); esp_transport_set_errors(t, ssl->tls->error_handle); esp_tls_conn_destroy(ssl->tls); ssl->tls = NULL; return -1; } return 0; } static inline int ssl_connect(esp_transport_handle_t t, const char *host, int port, int timeout_ms) { return esp_tls_connect(t, host, port, timeout_ms, false); } static inline int tcp_connect(esp_transport_handle_t t, const char *host, int port, int timeout_ms) { return esp_tls_connect(t, host, port, timeout_ms, true); } static int ssl_poll_read(esp_transport_handle_t t, int timeout_ms) { transport_esp_tls_t *ssl = ssl_get_context_data(t); int ret = -1; int remain = 0; struct timeval timeout; fd_set readset; fd_set errset; FD_ZERO(&readset); FD_ZERO(&errset); FD_SET(ssl->tls->sockfd, &readset); FD_SET(ssl->tls->sockfd, &errset); if ((remain = esp_tls_get_bytes_avail(ssl->tls)) > 0) { ESP_LOGD(TAG, "remain data in cache, need to read again"); return remain; } ret = select(ssl->tls->sockfd + 1, &readset, NULL, &errset, esp_transport_utils_ms_to_timeval(timeout_ms, &timeout)); if (ret > 0 && FD_ISSET(ssl->tls->sockfd, &errset)) { int sock_errno = 0; uint32_t optlen = sizeof(sock_errno); getsockopt(ssl->tls->sockfd, SOL_SOCKET, SO_ERROR, &sock_errno, &optlen); esp_transport_capture_errno(t, sock_errno); ESP_LOGE(TAG, "ssl_poll_read select error %d, errno = %s, fd = %d", sock_errno, strerror(sock_errno), ssl->tls->sockfd); ret = -1; } return ret; } static int ssl_poll_write(esp_transport_handle_t t, int timeout_ms) { transport_esp_tls_t *ssl = ssl_get_context_data(t); int ret = -1; struct timeval timeout; fd_set writeset; fd_set errset; FD_ZERO(&writeset); FD_ZERO(&errset); FD_SET(ssl->tls->sockfd, &writeset); FD_SET(ssl->tls->sockfd, &errset); ret = select(ssl->tls->sockfd + 1, NULL, &writeset, &errset, esp_transport_utils_ms_to_timeval(timeout_ms, &timeout)); if (ret > 0 && FD_ISSET(ssl->tls->sockfd, &errset)) { int sock_errno = 0; uint32_t optlen = sizeof(sock_errno); getsockopt(ssl->tls->sockfd, SOL_SOCKET, SO_ERROR, &sock_errno, &optlen); esp_transport_capture_errno(t, sock_errno); ESP_LOGE(TAG, "ssl_poll_write select error %d, errno = %s, fd = %d", sock_errno, strerror(sock_errno), ssl->tls->sockfd); ret = -1; } return ret; } static int ssl_write(esp_transport_handle_t t, const char *buffer, int len, int timeout_ms) { int poll, ret; transport_esp_tls_t *ssl = ssl_get_context_data(t); if ((poll = esp_transport_poll_write(t, timeout_ms)) <= 0) { ESP_LOGW(TAG, "Poll timeout or error, errno=%s, fd=%d, timeout_ms=%d", strerror(errno), ssl->tls->sockfd, timeout_ms); return poll; } ret = esp_tls_conn_write(ssl->tls, (const unsigned char *) buffer, len); if (ret < 0) { ESP_LOGE(TAG, "esp_tls_conn_write error, errno=%s", strerror(errno)); esp_transport_set_errors(t, ssl->tls->error_handle); } return ret; } static int ssl_read(esp_transport_handle_t t, char *buffer, int len, int timeout_ms) { int poll, ret; transport_esp_tls_t *ssl = ssl_get_context_data(t); if ((poll = esp_transport_poll_read(t, timeout_ms)) <= 0) { return poll; } ret = esp_tls_conn_read(ssl->tls, (unsigned char *)buffer, len); if (ret < 0) { ESP_LOGE(TAG, "esp_tls_conn_read error, errno=%s", strerror(errno)); esp_transport_set_errors(t, ssl->tls->error_handle); } if (ret == 0) { if (poll > 0) { // no error, socket reads 0 while previously detected as readable -> connection has been closed cleanly capture_tcp_transport_error(t, ERR_TCP_TRANSPORT_CONNECTION_CLOSED_BY_FIN); } ret = -1; } return ret; } static int ssl_close(esp_transport_handle_t t) { int ret = -1; transport_esp_tls_t *ssl = ssl_get_context_data(t); if (ssl && ssl->ssl_initialized) { ret = esp_tls_conn_destroy(ssl->tls); ssl->conn_state = TRANS_SSL_INIT; ssl->ssl_initialized = false; } return ret; } static int ssl_destroy(esp_transport_handle_t t) { transport_esp_tls_t *ssl = ssl_get_context_data(t); if (ssl) { esp_transport_close(t); if (t->base && t->base->transport_esp_tls && t->data == t->base->transport_esp_tls) { // if internal ssl the same as the foundation transport, // just zero out, it will be freed on list destroy t->data = NULL; } esp_transport_esp_tls_destroy(t->data); // okay to pass NULL } return 0; } void esp_transport_ssl_enable_global_ca_store(esp_transport_handle_t t) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.use_global_ca_store = true; } void esp_transport_ssl_set_psk_key_hint(esp_transport_handle_t t, const psk_hint_key_t* psk_hint_key) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.psk_hint_key = psk_hint_key; } void esp_transport_ssl_set_cert_data(esp_transport_handle_t t, const char *data, int len) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.cacert_pem_buf = (void *)data; ssl->cfg.cacert_pem_bytes = len + 1; } void esp_transport_ssl_set_cert_data_der(esp_transport_handle_t t, const char *data, int len) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.cacert_buf = (void *)data; ssl->cfg.cacert_bytes = len; } void esp_transport_ssl_set_client_cert_data(esp_transport_handle_t t, const char *data, int len) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.clientcert_pem_buf = (void *)data; ssl->cfg.clientcert_pem_bytes = len + 1; } void esp_transport_ssl_set_client_cert_data_der(esp_transport_handle_t t, const char *data, int len) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.clientcert_buf = (void *)data; ssl->cfg.clientcert_bytes = len; } void esp_transport_ssl_set_client_key_data(esp_transport_handle_t t, const char *data, int len) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.clientkey_pem_buf = (void *)data; ssl->cfg.clientkey_pem_bytes = len + 1; } void esp_transport_ssl_set_client_key_password(esp_transport_handle_t t, const char *password, int password_len) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.clientkey_password = (void *)password; ssl->cfg.clientkey_password_len = password_len; } void esp_transport_ssl_set_client_key_data_der(esp_transport_handle_t t, const char *data, int len) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.clientkey_buf = (void *)data; ssl->cfg.clientkey_bytes = len; } void esp_transport_ssl_set_alpn_protocol(esp_transport_handle_t t, const char **alpn_protos) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.alpn_protos = alpn_protos; } void esp_transport_ssl_skip_common_name_check(esp_transport_handle_t t) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.skip_common_name = true; } void esp_transport_ssl_use_secure_element(esp_transport_handle_t t) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.use_secure_element = true; } static int ssl_get_socket(esp_transport_handle_t t) { transport_esp_tls_t *ssl = ssl_get_context_data(t); if (ssl && ssl->tls) { return ssl->tls->sockfd; } return -1; } void esp_transport_ssl_set_ds_data(esp_transport_handle_t t, void *ds_data) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.ds_data = ds_data; } void esp_transport_ssl_set_keep_alive(esp_transport_handle_t t, esp_transport_keep_alive_t *keep_alive_cfg) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.keep_alive_cfg = (tls_keep_alive_cfg_t *) keep_alive_cfg; } void esp_transport_ssl_set_interface_name(esp_transport_handle_t t, struct ifreq *if_name) { GET_SSL_FROM_TRANSPORT_OR_RETURN(ssl, t); ssl->cfg.if_name = if_name; } esp_transport_handle_t esp_transport_ssl_init(void) { esp_transport_handle_t t = esp_transport_init(); esp_transport_set_func(t, ssl_connect, ssl_read, ssl_write, ssl_close, ssl_poll_read, ssl_poll_write, ssl_destroy); esp_transport_set_async_connect_func(t, ssl_connect_async); t->_get_socket = ssl_get_socket; return t; } struct transport_esp_tls* esp_transport_esp_tls_create(void) { transport_esp_tls_t *transport_esp_tls = calloc(1, sizeof(transport_esp_tls_t)); return transport_esp_tls; } void esp_transport_esp_tls_destroy(struct transport_esp_tls* transport_esp_tls) { free(transport_esp_tls); } esp_transport_handle_t esp_transport_tcp_init(void) { esp_transport_handle_t t = esp_transport_init(); esp_transport_set_func(t, tcp_connect, ssl_read, ssl_write, ssl_close, ssl_poll_read, ssl_poll_write, ssl_destroy); esp_transport_set_async_connect_func(t, tcp_connect_async); t->_get_socket = ssl_get_socket; return t; } void esp_transport_tcp_set_keep_alive(esp_transport_handle_t t, esp_transport_keep_alive_t *keep_alive_cfg) { return esp_transport_ssl_set_keep_alive(t, keep_alive_cfg); } void esp_transport_tcp_set_interface_name(esp_transport_handle_t t, struct ifreq *if_name) { return esp_transport_ssl_set_interface_name(t, if_name); }